Abstract
Abstract 3292
Previous studies have demonstrated that many T cell subsets possess NK-like features, including the CD56+ and KIR+ populations. Collectively, these studies showed that these NK-like T cells are predominantly αβ+ CD8+ with memory phenotype and could recognize HLA-E associated viral peptides after expansion upon TCR engagement. However, their clonality, transcriptome, regulation, specificity, and memory response in human have not been fully elucidated. We hypothesize that these NK-like T cells are phenotypically and functionally distinct from conventional T and NK cells and they play unique roles in virus and cancer control. Herein, we extensively characterized the CD56+ T cells and the KIR+ T subset by analysis of TREC, TCRVβ spectrum, telomere length, surface biomarkers, genome-wide transcriptome, multi-analyte cytokine profiling, cancer cell susceptibility, tetramer staining, and real-time response to CMV reactivation in stem cell transplant recipients. In contrast to CD56– T cells, CD56+ T cells are limited in TREC, TCRVβ, telomere length, cytokine secretion, transcription of metabolic genes stx6, nnt, galnt2, hvcn1, tyms, rpa1 tmf1, ecop, and tspan3, and are mostly KIR+, CD8+, DNAM1+, NKG2D+, CD44+, NKp46– and CD25–. Compared to KIR– CD56+ T cells, KIR+ CD56+ T cells are even more limited in TREC, TCRVβ, telomere length, and cytokine secretion, but have elevated transcription of NK cytotoxicity-related genes arrb1, ppp3cc, and lamc3, higher degranulation after activation by IL-2/IL-15 and CD3/CD28 antibodies, better killing of cancer cells after cytokine priming, and are mostly KIR2DL2/3+, NKG2D+, NKp46+, CD16+, NKG2C+, CD57+, and 2B4+. Importantly during CMV reactivation after stem cell transplantation, the percentage of KIR+ CD56+ T cells in the patient's blood increased dramatically and was significantly higher (p=0.0021) than in those without viral reactivation. Ex vivo, KIR+ CD56+ T cells demonstrate CMVpp65 tetramer staining, memory response to CMV peptides, and potent lysis of CMVpp65-pulsed target cells dependent on both KIR and TCR specificity. Furthermore, we identified for the first time that KIR– CD56+ T cells are Rorc+ IL-13-secretor. In conclusion, both CD56+ and KIR+ NK-like T-cell subsets are unique in biological and clinical properties and have distinct roles in cancer and infection control.
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.